CN118723662B - A non-woven fabric conveying mechanism for non-woven fabric processing equipment - Google Patents

Abstract

The present invention provides a non-woven fabric conveying mechanism for non-woven fabric processing equipment, and relates to the field of non-woven fabric processing. The non-woven fabric conveying mechanism for non-woven fabric processing equipment comprises a conveying box, in which a conveying frame, a dust removal frame and a deviation correction frame are fixed, and a conveying structure for intermittently moving the non-woven fabric is installed on the conveying frame, a dust removal structure for dust removal of the non-woven fabric is installed on the dust removal frame, and a deviation correction structure for correcting the non-woven fabric is installed on the deviation correction frame. A leveling frame is fixed in the middle of the conveying box, and a leveling structure for flattening the non-woven fabric is installed on the leveling frame. A non-woven fabric body is arranged in the conveying box. The non-woven fabric conveying mechanism for non-woven fabric processing equipment can intermittently convey the non-woven fabric to the right through the conveying structure, remove dust from the surface of the non-woven fabric through the dust removal structure, and level the surface of the non-woven fabric through the leveling structure, so as to improve the processing quality of the non-woven fabric.

Description

Non-woven fabric conveying mechanism for non-woven fabric processing equipment

Technical Field

The invention relates to the field of non-woven fabric processing, in particular to a non-woven fabric conveying mechanism for non-woven fabric processing equipment.

Background

The non-woven fabric is also called as non-woven fabric and is composed of oriented or random fibers, is called as cloth because of the appearance and certain properties of the cloth, has the characteristics of moisture resistance, ventilation, flexibility, light weight, no combustion supporting, easy decomposition, no toxicity or irritation, rich color, low price, recycling and the like, and needs to be conveyed in the processing process of the non-woven fabric;

The application number CN202110238496.6 discloses a flattening mechanism for conveying non-woven fabrics, which comprises a base, wherein two sides above the base are fixedly connected with the bottom of a bracket, the top of the bracket is fixedly connected with the left and right sides below a top plate, a wire roller is arranged on the right side above the base, the bottom of the wire roller is fixedly connected with the top of the base, a first sliding rod is arranged on the right side of the wire roller, a first sliding block is arranged on the first sliding rod, a sliding frame is arranged on the inner side of the first sliding block, and a dust adhering roller is arranged on the inner side of the middle part of the sliding frame;

Above-mentioned patent structure is carrying the in-process to the non-woven fabrics, mainly through the upper and lower surface of splint contact non-woven fabrics, press from both sides the fold, the impression etc. of upper and lower surface of non-woven fabrics and level, but before splint press from both sides the flat non-woven fabrics, do not level tensioning to the non-woven fabrics earlier, because the non-woven fabrics can have the fold at the splint before pressing from both sides flat, when splint press from both sides the non-woven fabrics that have the fold to the surface at ordinary times, can increase the crease on non-woven fabrics surface, in addition, above-mentioned patent structure is carrying the in-process to the non-woven fabrics, can make the non-woven fabrics appear the skew on the conveying roller, and above-mentioned patent structure does not have the function of correcting to the non-woven fabrics skew, thereby reduced at the in-process smooth effect to the non-woven fabrics.

Disclosure of Invention

(One) solving the technical problems

Aiming at the defects of the prior art, the invention provides a non-woven fabric conveying mechanism for non-woven fabric processing equipment, which solves the problems that crease marks on the surface of non-woven fabric are inconvenient to effectively flatten and deviation rectifying treatment is inconvenient to the non-woven fabric in the conveying process of the non-woven fabric.

(II) technical scheme

In order to achieve the purposes that the crease on the surface of the non-woven fabric is convenient to effectively level and smooth and the non-woven fabric is convenient to rectify and treat in the non-woven fabric conveying process, the invention is realized by the following technical scheme: the non-woven fabric conveying mechanism for the non-woven fabric processing equipment comprises a conveyor box, wherein a conveying rack, a dust removing rack and a deviation rectifying rack are sequentially fixed inside the conveyor box from outside to inside, a conveying structure for intermittently moving the non-woven fabric is arranged on the conveying rack, a dust removing structure for removing dust from the non-woven fabric is arranged on the dust removing rack, a deviation rectifying structure for rectifying the non-woven fabric is arranged on the deviation rectifying rack, a flattening rack is fixed in the middle of the conveyor box, a flattening structure for flattening the non-woven fabric is arranged on the flattening rack, and a non-woven fabric body is arranged in the conveyor box;

The dust removing machine comprises a conveying frame, a dust removing frame and a deviation rectifying frame, wherein the conveying frame, the dust removing frame and the deviation rectifying frame are arranged from outside to inside, the dust removing frame is arranged on the inner side of the conveying frame, the deviation rectifying frame is arranged on the inner side of the dust removing frame, the flattening frame is arranged between the deviation rectifying frames, and the non-woven fabric body is arranged between the front conveying frame, the rear conveying frame, the dust removing frame, the deviation rectifying frame and the flattening frame.

Preferably, the conveying structure arranged on the conveying rack comprises an upper conveying shaft and a lower conveying shaft, the conveying shafts are rotatably connected between the front conveying rack and the rear conveying rack, an upper fluted disc is fixed on the surface of each conveying shaft, a lower fluted disc is fixed on the surface of each conveying shaft, an upper conveying roller is fixed between the upper fluted discs, and a lower conveying roller is fixed between the lower fluted discs.

Preferably, the back of the conveyor case is provided with a motor, the output end of the motor is fixedly connected with a group of conveying shafts, the conveying shafts are concentric with the upper fluted disc and the lower fluted disc, the upper conveying roller is not concentric with the upper fluted disc, the lower conveying roller is not concentric with the lower fluted disc, and the non-woven fabric body is positioned between the upper conveying roller and the lower conveying roller.

Preferably, the dust removing structure arranged on the dust removing frame is located at the inner side of the conveying structure and comprises a linear through groove, the side surface of the dust removing frame is provided with a linear sliding groove, the inner side surface of the linear through groove is provided with a linear folding spring plate, the lower side of the inner part of the linear sliding groove slides with a sliding block, and dust collecting rollers rotate between the sliding blocks.

Preferably, the top of the linear folding shrapnel is fixedly connected with the inner wall of the linear chute, the bottom of the linear folding shrapnel is fixedly connected with the sliding block, two groups of dust collection rollers are arranged in the vertical direction, the upper group of dust collection rollers and the lower group of dust collection rollers are connected through a U-shaped tube, the U-shaped tube is rotationally connected with the dust collection rollers, a negative pressure machine is arranged on the back of the conveyor box, the output end of the negative pressure machine is connected with the U-shaped tube, and the non-woven fabric body is positioned between the upper group of dust collection rollers and the lower group of dust collection rollers.

Preferably, the structure of rectifying that sets up in rectifying the frame is located the inboard of dust removal structure, and the structure of rectifying includes the roller of rectifying, the roller of rectifying is located the downside of non-woven fabrics body, the surface outside of roller of rectifying is provided with pressure sensor along its circumferencial direction, the baffle slot has been seted up at the surface middle part of roller of rectifying to will rectify the roller and divide into two, the centre of a circle department between the roller of rectifying of two sets of is fixed with the dead axle, the surface middle part of dead axle is fixed with interior ball, interior ball's surface rotation has uncovered ball cover, uncovered ball cover's surface mounting has radial electric pole, radial electric pole's outside one end is fixed with the outer loop of rectifying, the arc logical groove has been seted up on the surface of outer loop of rectifying, the arc spout has been seted up to the side of arc logical groove, the inside of arc spout is provided with arc line type and is folded the shell fragment, the inside slip of arc logical groove has the inner loop of rectifying, and the inner wall fixed connection of inner loop and arc spout of rectifying, the universal joint is installed to the outer end face of universal joint, axial electric pole is installed to the outside face of inner ring and the outer loop of rectifying, the outer loop of rectifying constitutes the telescoping ring.

Preferably, the surface outside of roller of rectifying has seted up the recess, and pressure sensor is in the inside of recess and radially remove along the roller of rectifying, and the inside pressure spring that is provided with of recess, and pressure spring's both ends and recess inner wall and pressure sensor fixed connection, the outer loop of rectifying respectively is provided with three group with the inner ring of rectifying, and three group outer loop of rectifying and the crisscross setting of inner ring of rectifying, flexible loop of rectifying is located the downside of non-woven fabrics body, the both ends of axial electric pole are rotated with the inner ring of rectifying and the inner wall of separating the groove through the universal joint and are connected.

Preferably, the leveling structure arranged on the leveling frame is arranged between the two side deviation rectifying structures, the leveling structure comprises leveling boxes, the leveling boxes are fixed between the front leveling frame and the rear leveling frame, a positive and negative rotating motor is installed on the upper surface and the bottom surface of each leveling box, an output end of each positive and negative rotating motor is arranged inside each leveling box and is fixedly provided with a spline shaft, an inner end axial direction of each spline shaft slides with a spline cylinder, a spring is sleeved on the outer side of each spline shaft, a driving bevel gear is fixed at one end of each spline cylinder, a three-head frame is rotated on the inner side end face of each driving bevel gear, driven bevel gears are meshed with the corresponding driving bevel gears, a screw is fixed on the outer side end face of each driven bevel gear, a telescopic rod is rotated on the surface of each screw, one end of each telescopic rod is fixedly connected with each leveling box, a ball groove is formed in the surface of each sawtooth-shaped leveling elastic piece, and a threaded ball is rotated inside each ball groove.

Preferably, the top of spring and integral key shaft fixed connection, the bottom and the integral key section of thick bamboo fixed connection of spring, the flexible spring integral key shaft is constituteed to integral key shaft, integral key section of thick bamboo and spring three.

Preferably, the surface of the screw rod is provided with a plurality of groups of external threads from inside to outside at the thread ball, two adjacent groups of external threads are not connected, the thread interval of the external threads arranged from inside to outside is sequentially increased, and the screw rod penetrates through the thread ball and is in threaded connection with the thread ball through the external threads.

(III) beneficial effects

The invention provides a non-woven fabric conveying mechanism for non-woven fabric processing equipment. The beneficial effects are as follows:

1. the upper fluted disc drives the upper conveying roller which is eccentrically arranged with the upper fluted disc to rotate anticlockwise, the lower fluted disc drives the lower conveying roller which is eccentrically arranged with the lower fluted disc to rotate clockwise, when the eccentric far point of the upper conveying roller moves from top to bottom and the eccentric far point of the lower conveying roller moves from bottom to top, the non-woven fabric body between the upper conveying roller and the lower conveying roller can be driven to move rightwards, when the eccentric far point of the conveying roller on the fabric body moves from bottom to top and the eccentric far point of the lower conveying roller moves from top to bottom, the non-woven fabric body is static in the process, so that the non-woven fabric body can move rightwards in a clearance mode, and the intermittent non-woven fabric body can be leveled later.

2. When the non-woven fabric body shifts on the surface of the deviation correcting roller in the rightward moving process, the edge of the non-woven fabric body of the shifting part can generate pressure on the pressure sensor, the right side of the telescopic deviation correcting ring is driven to deflect forwards or backwards through the axial electric rod, the telescopic deviation correcting ring is driven to stretch through the radial electric rod to stretch, the non-woven fabric body is lifted upwards, the motor arranged on the back of the conveyor box drives the deviation correcting roller to rotate clockwise, so that the non-woven fabric body can be driven to move forwards through the clockwise rotation of the telescopic deviation correcting ring, and similarly, when the right side of the telescopic deviation correcting ring deflects backwards, the non-woven fabric body can be driven to move backwards through the clockwise rotation of the telescopic deviation correcting ring, and therefore the non-woven fabric body can be corrected forwards or backwards through the clockwise rotation of the telescopic deviation correcting ring.

3. When the non-woven fabric body stops moving between the upper group of saw-tooth leveling elastic pieces and the lower group of saw-tooth leveling elastic pieces in an intermittent motion mode, the telescopic spring spline shaft can drive the screw to rotate through the meshing between the driving bevel gear and the driven bevel gear, when the screw rotates, because the external thread interval on the surface of the screw is sequentially increased from inside to outside, when the screw rotates, the threaded balls at different positions can be driven to move outwards at different distances, so the threaded balls can drive the saw-tooth leveling elastic pieces to stretch at different intervals, and the non-woven fabric body between the upper group of saw-tooth leveling elastic pieces and the lower group of saw-tooth leveling elastic pieces can be stretched outwards at different distances to be stretched and tensioned to be flattened, and the phenomenon that wrinkles appear on the surface of the non-woven fabric body is avoided.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a front cross-sectional view of the upper and lower conveyor rollers of the present invention;

FIG. 3 is a schematic view of a suction roll with the structure of the invention;

FIG. 4 is a schematic view of a deviation correcting roller according to the present invention;

FIG. 5 is a partial cross-sectional view of a deflection correction roller of the present invention;

FIG. 6 is an enlarged schematic view of a portion of the structure of FIG. 5A in accordance with the present invention;

FIG. 7 is a schematic view of a telescopic deviation correcting ring according to the present invention

FIG. 8 is a schematic view of a saw-toothed flat spring plate according to the present invention

Fig. 9 is a partially enlarged schematic view of the structure at B in fig. 8 according to the present invention.

Wherein, 1, a conveyor box; 2. a conveyor frame; 201. a conveying shaft; 202. an upper fluted disc; 203. a lower fluted disc; 204. an upper conveying roller; 205. a lower conveying roller; 3. a dust removal rack; 301. a linear through slot; 302. a linear chute; 303. a linear folding spring plate; 304. a slide block; 305. a dust collection roller; 4. a deviation correcting rack; 401. a correction roller; 402. a pressure sensor; 403. a partition groove; 404. fixing the shaft; 405. a ball is positioned inside; 406. an open ball sleeve; 407. a radial electric lever; 408. a deviation correcting outer ring; 409. arc through grooves; 410. an arc chute; 411. arc-shaped overlapped spring plates; 412. a correction inner ring; 413. a universal joint; 414. an axial electric rod; 415. a telescopic deviation correcting ring; 5. leveling the frame; 501. leveling the box; 502. a forward and reverse rotation motor; 503. a spline shaft; 504. a spline cylinder; 505. a spring; 506. driving the bevel gear; 507. three headstock; 508. driven bevel teeth; 509. a screw; 510. a telescopic rod; 511. sawtooth-shaped flat spring plates; 512. a ball groove; 513. a threaded ball; 6. a non-woven fabric body.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples, wherein it is to be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. refer to the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, only for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present invention; the terms "first," "second," "third," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, and furthermore, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "coupled," and the like are to be construed broadly, and may be fixedly coupled, detachably coupled, or integrally coupled, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides a non-woven fabrics conveying mechanism for non-woven fabrics processing equipment, including conveyer box 1, the inside of conveyer box 1 is fixed with conveying frame 2, dust removal frame 3 and frame 4 rectifies in proper order from outside to inside, and install the conveying structure that is used for moving to non-woven fabrics intermittent type on conveying frame 2, install the dust removal structure that is used for removing dust to non-woven fabrics on dust removal frame 3, install the structure of rectifying that is used for correcting to non-woven fabrics on frame 4 rectifies, the middle part of conveyer box 1 is fixed with leveling frame 5, install the leveling structure that is used for flattening to non-woven fabrics on leveling frame 5, be provided with non-woven fabrics body 6 in the conveyer box 1;

The conveying frame 2, the dust removing frame 3 and the deviation rectifying frame 4 are arranged from outside to inside, the dust removing frame 3 is arranged on the inner side of the conveying frame 2, the deviation rectifying frame 4 is arranged on the inner side of the dust removing frame 3, the leveling frame 5 is arranged between the deviation rectifying frames 4, the non-woven fabric body 6 is arranged between the front conveying frame 2, the rear conveying frame 3, the deviation rectifying frame 4 and the leveling frame 5, the motor and the negative pressure machine arranged on the back of the conveying machine box 1, the pressure sensor 402, the radial electric rod 407, the axial electric rod 414 and the positive and negative rotating motor 502 are electrically connected with an external controller, each electric appliance can work cooperatively, the left end of the non-woven fabric body 6 is connected with an external cloth roller by connecting the left end of the non-woven fabric body 6 with the external cloth roller, the non-woven fabric body 6 sequentially passes through the upper conveying roller 204, the lower conveying roller 205, the upper dust collecting roller and the lower dust collecting roller 305, passes through the upper part of the deviation rectifying roller 401 and enters into the leveling box 501, and finally the right end of the conveying box 1 is penetrated out, so that the non-woven fabric body 6 moves rightwards.

In this embodiment, the conveying structure disposed on the conveying frame 2 includes an upper group of conveying shafts 201 and a lower group of conveying shafts 201, the conveying shafts 201 are rotatably connected between the front and rear conveying frames 2, an upper fluted disc 202 is fixed on the surface of the upper conveying shaft 201, a lower fluted disc 203 is fixed on the surface of the lower conveying shaft 201, an upper conveying roller 204 is fixed between the upper fluted discs 202, and a lower conveying roller 205 is fixed between the lower fluted discs 203;

Specifically, as shown in fig. 2 of the specification, a motor disposed at the back of the conveyor box 1 is started to drive a group of conveying shafts 201 to rotate, and the group of conveying shafts 201 can drive the upper fluted disc 202 and the lower fluted disc 203 to simultaneously rotate reversely, so that the upper fluted disc 202 drives the upper conveying roller 204 eccentrically disposed therewith to rotate anticlockwise, and the lower fluted disc 203 drives the lower conveying roller 205 eccentrically disposed therewith to rotate clockwise, so that the non-woven fabric body 6 can be conveyed rightward.

In this embodiment, a motor is disposed on the back of the conveyor case 1, and an output end of the motor is fixedly connected with a group of conveying shafts 201, the conveying shafts 201 are concentric with the upper fluted disc 202 and the lower fluted disc 203, the upper conveying roller 204 is not concentric with the upper fluted disc 202, the lower conveying roller 205 is not concentric with the lower fluted disc 203, and the non-woven fabric body 6 is located between the upper conveying roller 204 and the lower conveying roller 205;

Specifically, when the eccentric far point of the upper conveying roller 204 moves from top to bottom, the eccentric far point of the lower conveying roller 205 moves from bottom to top, the non-woven fabric body 6 between the upper conveying roller 204 and the lower conveying roller 205 can be driven to move rightward, and when the eccentric far point of the upper conveying roller 204 moves from bottom to top, the eccentric far point of the lower conveying roller 205 moves from top to bottom, the non-woven fabric body 6 is stationary in the process, and the non-woven fabric body 6 can be moved rightward in a gap manner.

In this embodiment, the dust removing structure disposed on the dust removing frame 3 is located at the inner side of the conveying structure, the dust removing structure includes a linear through slot 301, the linear through slot 301 is opened at the side of the dust removing frame 3, a linear sliding slot 302 is opened at the inner side of the linear through slot 301, a linear folding elastic sheet 303 is disposed at the upper side of the inner part of the linear sliding slot 302, a sliding block 304 is slid at the lower side of the inner part of the linear sliding slot 302, and a dust absorbing roller 305 is rotated between the front sliding block 304 and the rear sliding block 304;

Specifically, as shown in fig. 3 of the specification, when the non-woven fabric body 6 moves rightward, the non-woven fabric body 6 contacts with the upper and lower groups of dust collection rollers 305, and due to the tension of the linear folding elastic sheet 303, the upper and lower groups of sliding blocks 304 are driven to approach each other, so that the upper and lower groups of sliding blocks 304 are used to make the upper and lower groups of dust collection rollers 305 approach each other, and the upper and lower groups of dust collection rollers 305 are attached to the surface of the non-woven fabric body 6, so that when the non-woven fabric body 6 moves rightward, the upper and lower groups of dust collection rollers 305 can be driven to reversely rotate by the friction force between the non-woven fabric body 6 and the upper and lower groups of dust collection rollers 305.

In this embodiment, the top end of the linear folding spring 303 is fixedly connected with the inner wall of the linear chute 302, the bottom end of the linear folding spring 303 is fixedly connected with the slide block 304, two groups of dust collection rollers 305 are arranged in the up-down direction, the upper group of dust collection rollers 305 and the lower group of dust collection rollers 305 are connected through a U-shaped tube, the U-shaped tube is rotationally connected with the dust collection rollers 305, the back surface of the conveyor case 1 is provided with a negative pressure machine, the output end of the negative pressure machine is connected with the U-shaped tube, and the non-woven fabric body 6 is positioned between the upper group of dust collection rollers 305 and the lower group of dust collection rollers 305;

Specifically, when the non-woven fabric body 6 moves rightward, the upper group of dust collection rollers 305 and the lower group of dust collection rollers 305 can be driven to rotate, the angle of the through holes on the surfaces of the dust collection rollers 305 is changed, then a negative pressure machine arranged on the back surface of the conveyor case 1 is started, and dust on the surfaces of the non-woven fabric body 6 can be sucked away through the through holes with different angles.

In this embodiment, the rectification structure disposed on the rectification rack 4 is located at the inner side of the dust removing structure, the rectification structure includes a rectification roller 401, the rectification roller 401 is located at the lower side of the non-woven fabric body 6, a pressure sensor 402 is disposed along the circumferential direction of the outer side of the surface of the rectification roller 401, a partition slot 403 is disposed in the middle of the surface of the rectification roller 401, the rectification roller 401 is divided into two groups, a fixed shaft 404 is fixed at the center between the two groups of rectification rollers 401, an inner sphere 405 is fixed in the middle of the surface of the fixed shaft 404, an open spherical sleeve 406 is rotated on the surface of the inner sphere 405, a radial electric rod 407 is mounted on the surface of the open spherical sleeve 406, an outer ring 408 is fixed at one end of the outer side of the radial electric rod 407, an arc-shaped through slot 409 is formed on the surface of the rectification outer ring 408, an arc-shaped lamination spring 411 is disposed in the side of the arc-shaped through slot 409, two ends of the arc-shaped lamination 411 are fixedly connected with the inner ring 412 and the inner wall of the arc-shaped lamination 410, a universal joint 413 is mounted on the end face of the inner ring 412, and the outer ring 408 is mounted on the outer side of the universal joint 408;

specifically, as shown in fig. 4 of the specification and fig. 6 of the specification, when the nonwoven fabric body 6 deflects forward or backward on the surface of the deviation correcting roller 401, the right side of the telescopic deviation correcting ring 415 can be driven to deflect forward or backward by stretching or shrinking the axial electric rod 414, the telescopic deviation correcting ring 415 is driven to stretch by stretching the radial electric rod 407, the deviation correcting roller 401 is driven to rotate clockwise by a motor arranged on the back of the conveyor case 1, the nonwoven fabric body 6 can be driven to move forward by rotating the telescopic deviation correcting ring 415 clockwise, and similarly, when the right side of the telescopic deviation correcting ring 415 deflects backward, the nonwoven fabric body 6 can be driven to move backward by rotating the telescopic deviation correcting ring 415 clockwise.

In this embodiment, a groove is formed on the outer side of the surface of the deviation rectifying roller 401, the pressure sensor 402 moves radially along the deviation rectifying roller 401 in the groove, a pressure spring is arranged in the groove, two ends of the pressure spring are fixedly connected with the inner wall of the groove and the pressure sensor 402, three groups of deviation rectifying outer rings 408 and deviation rectifying inner rings 412 are respectively arranged, the three groups of deviation rectifying outer rings 408 and the deviation rectifying inner rings 412 are staggered, the telescopic deviation rectifying rings 415 are positioned on the lower side of the non-woven fabric body 6, and two ends of the axial electric rod 414 are rotatably connected with the deviation rectifying inner rings 412 and the inner walls of the separation grooves 403 through universal joints 413;

Specifically, the stretching or shrinking of the radial electric rod 407 can drive the right side of the telescopic deviation correcting ring 415 to deflect forwards or backwards, the axial electric rod 414 can drive the telescopic deviation correcting ring 415 to stretch, and the non-woven fabric body 6 is jacked up,

In this embodiment, the leveling structure disposed on the leveling frame 5 is disposed between two side deviation correcting structures, the leveling structure includes a leveling box 501, the leveling box 501 is fixed between two sets of leveling frames 5, a forward and reverse rotation motor 502 is installed on the upper surface and the bottom surface of the leveling box 501, the output end of the forward and reverse rotation motor 502 is disposed inside the leveling box 501 and is fixed with a spline shaft 503, a spline cylinder 504 slides in the axial direction at the inner end of the spline shaft 503, a spring 505 is sleeved at the outer side of the spline shaft 503, a driving bevel gear 506 is fixed at the inner end of the spline cylinder 504, a three-head frame 507 is rotated at the inner end of the driving bevel gear 506, driven bevel gears 508 are meshed with the driving bevel gears 506, a screw 509 is fixed at the outer end of the driven bevel gears 508, a telescopic rod 510 is rotated on the surface of the screw 509, one end of the telescopic rod 510 is fixedly connected with the leveling box 501, a ball groove 512 is formed on the surface of a sawtooth leveling elastic sheet 511, and a threaded ball 513 is rotated inside the ball groove 512;

Specifically, as shown in fig. 8 and 9 of the specification, the spline shaft 503, the spline cylinder 504 and the spring 505 are driven by the forward and reverse motor 502 to rotate by the telescopic spring spline shaft, the driving bevel gear 506 is driven by the telescopic spring spline shaft to rotate, the screw 509 can be driven to rotate by the engagement between the driving bevel gear 506 and the driven bevel gear 508, and the toothed leveling elastic sheets 511 can be driven to stretch at different intervals by the threaded balls 513 at different positions when the screw 509 rotates, so that the non-woven fabric body 6 is stretched and leveled.

In this embodiment, the top end of the spring 505 is fixedly connected with the spline shaft 503, the bottom end of the spring 505 is fixedly connected with the spline cylinder 504, and the spline shaft 503, the spline cylinder 504 and the spring 505 form a telescopic spring spline shaft;

Specifically, the screw 509 can be supported and rotated by the telescopic rod 510, when the serrated leveling elastic sheet 511 stretches, the bottom end of the serrated leveling elastic sheet 511 is separated from the non-woven fabric body 6 and forms a gap with the non-woven fabric body 6, at this time, the driving bevel gear 506 and the driven bevel gear 508 can drive the screw 509 to move by the tension of the telescopic spring spline shaft, the telescopic rod 510 stretches, the screw 509 can drive the upper serrated leveling elastic sheet 511 and the lower serrated leveling elastic sheet 511 to be close to the non-woven fabric body 6, and the non-woven fabric body 6 is clamped again, so that the non-woven fabric body 6 is flattened later.

In this embodiment, a plurality of groups of external threads are formed on the surface of the screw 509 and located at the threaded ball 513 from inside to outside, and two adjacent groups of external threads are not connected, the thread pitch of the external threads formed from inside to outside is sequentially increased, and the screw 509 penetrates through the threaded ball 513 and is in threaded connection with the threaded ball 513 through the external threads;

Specifically, by arranging external threads on the surface of the screw 509 from inside to outside, and sequentially increasing the intervals between the external threads from inside to outside, when the screw 509 rotates, the threaded balls 513 at different positions can be driven to move at different distances, so that the threaded balls 513 can drive the saw-tooth-shaped leveling elastic sheets 511 at different positions to stretch to different degrees, and the non-woven fabric body 6 is flattened.

The working principle and the using flow of the invention are as follows: the left end of the non-woven fabric body 6 is connected with an external cloth roller, the right end of the non-woven fabric body 6 is connected with an external cloth roller, the non-woven fabric body 6 sequentially passes through the upper conveying roller 204, the lower conveying roller 205, the upper dust collection roller 305 and the lower dust collection roller 305 from left to right, and enters the leveling box 501 through the upper part of the deviation correcting roller 401, finally passes out from the right end of the conveyor box 1, then a motor arranged on the back surface of the conveyor box 1 is started to drive a group of conveying shafts 201 to rotate, and the group of conveying shafts 201 can drive the upper fluted disc 202 and the lower fluted disc 203 to simultaneously rotate reversely, so that the upper fluted disc 202 drives the upper conveying roller 204 eccentrically arranged with the upper fluted disc 202 to rotate anticlockwise, The lower fluted disc 203 drives the lower conveying roller 205 eccentrically arranged with the lower fluted disc to rotate clockwise, as shown in fig. 2 of the specification, when the eccentric far point of the upper conveying roller 204 moves from top to bottom and the eccentric far point of the lower conveying roller 205 moves from bottom to top, the non-woven fabric body 6 between the upper conveying roller 204 and the lower conveying roller 205 can be driven to move rightwards, when the eccentric far point of the upper conveying roller 204 moves from bottom to top and the eccentric far point of the lower conveying roller 205 moves from top to bottom, the non-woven fabric body 6 is still in the process, so that the non-woven fabric body 6 can move rightwards in a clearance way, and when the non-woven fabric body 6 moves rightwards, the non-woven fabric body 6 contacts with the upper dust collection roller and the lower dust collection roller 305, Because the tension of the linear folding elastic sheet 303 has the trend of driving the upper and lower groups of sliding blocks 304 to approach each other, the upper and lower groups of dust collection rollers 305 also have the trend of approaching each other through the sliding blocks 304, the upper and lower groups of dust collection rollers 305 are attached to the surface of the non-woven fabric body 6, and the upper and lower groups of dust collection rollers 305 can be driven to rotate when the non-woven fabric body 6 moves rightwards through the friction force between the non-woven fabric body 6 and the dust collection rollers 305, the angles of through holes on the surfaces of the dust collection rollers 305 are changed, at the moment, a negative pressure machine arranged on the back of the conveyor case 1 is started, dust on the surface of the non-woven fabric body 6 can be sucked away through the through holes with different angles, therefore, the purpose of high-efficiency dust removal is achieved, when the non-woven fabric body 6 deviates on the surface of the deviation correcting roller 401 in the rightward moving process, namely, the non-woven fabric body 6 deviates forwards or backwards on the surface of the deviation correcting roller 401, the edge of the non-woven fabric body 6 at the deviation part can generate pressure on the pressure sensor 402, meanwhile, the axial electric rod 414 stretches or contracts and rotates through the support of the inner sphere 405 on the open sphere sleeve 406, so that the axial electric rod 414 can drive the right side of the telescopic deviation correcting ring 415 to deflect forwards or backwards, meanwhile, the radial electric rod 407 stretches to drive the telescopic deviation correcting ring 415 to stretch, and the non-woven fabric body 6 is jacked upwards, And the motor arranged on the back of the conveyor case 1 drives the deviation correcting roller 401 to rotate clockwise, so that friction force is generated between the deviation correcting roller 401 and the surface of the non-woven fabric body 6 when the right side of the telescopic deviation correcting ring 415 deflects forwards, the non-woven fabric body 6 can be driven to move forwards by rotating the telescopic deviation correcting ring 415 clockwise, and similarly, when the right side of the telescopic deviation correcting ring 415 deflects backwards, the non-woven fabric body 6 can be driven to move backwards by rotating the telescopic deviation correcting ring 415 clockwise, so that the non-woven fabric body 6 can deflect forwards or backwards to correct, and when the non-woven fabric body 6 moves between the front pressure sensor 402 and the rear pressure sensor 402, the edge of the non-woven fabric body 6 does not generate pressure on the pressure sensor 402, At this time, the telescopic deviation correcting ring 415 is retracted and coaxial with the deviation correcting roller 401, and the telescopic deviation correcting ring 415 is retracted and has the same outer diameter as the deviation correcting roller 401 so as to continuously convey the non-woven fabric body 6 rightward, when the non-woven fabric body 6 after deviation correction enters the inside of the leveling box 501 and moves rightward, the non-woven fabric body is in sliding connection with the upper and lower groups of serrated leveling elastic pieces 511, and when the non-woven fabric body 6 stops moving between the upper and lower groups of serrated leveling elastic pieces 511 in an intermittent motion mode, the forward and reverse motor 502 drives the spline shaft 503, the spline cylinder 504 and the telescopic spring spline shaft formed by the spring 505 to rotate, The telescopic spring spline shaft can drive the driving bevel gear 506 to rotate, and can drive the screw 509 to rotate through the engagement between the driving bevel gear 506 and the driven bevel gear 508, when the screw 509 rotates, because the external thread interval on the surface of the screw 509 is sequentially increased from inside to outside, when the screw 509 rotates, the threaded balls 513 at different positions can be driven to move outwards at different distances, so that the threaded balls 513 can drive the serrated flat elastic sheets 511 to stretch at different intervals, namely, the stretching degree of the inner side of the serrated flat elastic sheets 511 is smaller than the stretching degree of the outer side of the serrated flat elastic sheets 511, and therefore, the non-woven fabric body 6 between the upper group of serrated flat elastic sheets 511 and the lower group of serrated flat elastic sheets 511 can be stretched, Stretching, tensioning and flattening the non-woven fabric body 6 outwards at different distances to avoid the situation that the surface of the non-woven fabric body 6 is wrinkled, and clamping and shaping the stretched non-woven fabric body 6 by the upper dust collection roller 305, the lower dust collection roller 204 and the lower conveying roller 205 on the right side.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Non-woven fabric conveying mechanism for non-woven fabric processing equipment, including conveyer case (1), its characterized in that: the automatic non-woven fabric flattening machine is characterized in that a conveying frame (2), a dust removing frame (3) and a deviation rectifying frame (4) are sequentially fixed inside the conveying machine box (1) from outside to inside, a conveying structure for intermittently moving non-woven fabrics is arranged on the conveying frame (2), a dust removing structure for removing dust from the non-woven fabrics is arranged on the dust removing frame (3), a deviation rectifying structure for rectifying the non-woven fabrics is arranged on the deviation rectifying frame (4), a flattening frame (5) is fixed in the middle of the conveying machine box (1), a flattening structure for flattening the non-woven fabrics is arranged on the flattening frame (5), and a non-woven fabric body (6) is arranged in the conveying machine box (1);

The conveying machine frame (2), the dust removing machine frame (3) and the deviation rectifying machine frame (4) are arranged from outside to inside, the dust removing machine frame (3) is arranged on the inner side of the conveying machine frame (2), the deviation rectifying machine frame (4) is arranged on the inner side of the dust removing machine frame (3), the leveling machine frame (5) is arranged between the deviation rectifying machine frames (4), and the non-woven fabric body (6) is arranged between the front conveying machine frame (2), the rear conveying machine frame (2), the dust removing machine frame (3), the deviation rectifying machine frame (4) and the leveling machine frame (5);

the dust removing structure arranged on the dust removing frame (3) is positioned at the inner side of the conveying structure, the dust removing structure comprises a linear through groove (301), the linear through groove (301) is formed in the side face of the dust removing frame (3), a linear sliding groove (302) is formed in the inner side face of the linear through groove (301), a linear folding elastic sheet (303) is arranged on the upper side of the inner part of the linear sliding groove (302), a sliding block (304) is arranged on the lower side of the inner part of the linear sliding groove (302) in a sliding mode, and dust collecting rollers (305) are arranged between the front sliding block and the rear sliding block (304) in a rotating mode;

The utility model provides a structure of rectifying on frame (4) of rectifying is located dust removal structure's inboard, structure of rectifying includes roller (401) of rectifying, roller (401) of rectifying is located the downside of non-woven fabrics body (6), the surface outside of roller (401) of rectifying is provided with pressure sensor (402) along its circumferencial direction, separate groove (403) have been seted up at the surface middle part of roller (401) of rectifying to divide into two with roller (401) of rectifying, the centre of a circle department between two sets of rollers (401) of rectifying is fixed with dead axle (404), the surface middle part of dead axle (404) is fixed with interior ball (405), the surface rotation of interior ball (405) has uncovered ball cover (406), the surface mounting of uncovered ball cover (406) has radial electric pole (407), the outside one end of radial electric pole (407) is fixed with outer loop (408), arc through groove (409) have been seted up on the surface of rectifying (408), arc through groove (409) side face has arc chute (410) to divide into two, the inside of arc chute (410) is provided with fixed with interior ball cover (412) and the inner end of arc (411) of arc, the inner end of arc inner ring (411) is connected with the inner end of arc (411), an axial electric rod (414) is arranged on the outer side end surface of the universal joint (413), and the outer correction ring (408) and the inner correction ring (412) form a telescopic correction ring (415);

the leveling structure arranged on the leveling frame (5) is positioned between two side deviation rectifying structures, the leveling structure comprises a leveling box (501), the leveling box (501) is fixed between two groups of leveling frames (5) in front and back, a forward and reverse rotation motor (502) is arranged on the upper surface and the bottom surface of the leveling box (501), the output end of the forward and reverse rotation motor (502) is positioned in the leveling box (501) and is fixedly provided with a spline shaft (503), the axial direction of the inner side one end of the spline shaft (503) slides with a spline cylinder (504), the outer side of the spline shaft (503) is sleeved with a spring (505), the inner side one end of the spline cylinder (504) is fixedly provided with a driving bevel gear (506), the inner side end surface of the driving bevel gear (506) is rotated with a three-head frame (507), two ends of the three-head frame (507) are rotated with driven bevel gears (508), the driven bevel gears (508) are meshed with the driving bevel gears (506), the outer side end surfaces of the driven bevel gears (508) are fixedly provided with a screw rod (509), the surface of the screw rod (509) rotates with a telescopic rod (510), the inner side one end of the spline shaft (503) slides along the axial direction, the inner side of the spline shaft (504) is fixedly provided with a saw-toothed groove (511), the inner side of the elastic plate (511) is fixedly provided with a saw-toothed groove (511), a threaded ball (513) is rotated in the ball groove (512);

The surface of the screw rod (509) is provided with a plurality of groups of external threads from inside to outside at the thread ball (513), two adjacent groups of external threads are not connected, the thread intervals of the external threads arranged from inside to outside are sequentially increased, and the screw rod (509) penetrates through the thread ball (513) and is in threaded connection with the thread ball (513) through the external threads.

2. The nonwoven fabric conveying mechanism for a nonwoven fabric processing apparatus according to claim 1, wherein: the conveying structure arranged on the conveying rack (2) comprises an upper conveying shaft (201) and a lower conveying shaft (201), the conveying shafts (201) are rotatably connected between the front conveying rack (2) and the rear conveying rack (2), an upper fluted disc (202) is fixed on the surface of the conveying shaft (201), a lower fluted disc (203) is fixed on the surface of the conveying shaft (201), an upper conveying roller (204) is fixed between the upper fluted discs (202), and a lower conveying roller (205) is fixed between the lower fluted discs (203).

3. The nonwoven fabric conveying mechanism for a nonwoven fabric processing apparatus according to claim 2, wherein: the back of conveyer case (1) is provided with the motor, and the output and a set of conveying axle (201) fixed connection of motor, conveying axle (201) are concentric with last fluted disc (202) and lower fluted disc (203), go up conveying roller (204) and go up fluted disc (202) concentric, lower conveying roller (205) are not concentric with lower fluted disc (203), non-woven fabrics body (6) are located between conveying roller (204) and lower conveying roller (205).

4. The nonwoven fabric conveying mechanism for a nonwoven fabric processing apparatus according to claim 1, wherein: the top of linear type folding shell fragment (303) is fixedly connected with the inner wall of linear type spout (302), the bottom and the slider (304) fixed connection of linear type folding shell fragment (303), dust absorption roller (305) up-and-down direction is provided with two sets of, is connected through U type pipe between two sets of dust absorption rollers (305), and U type pipe and dust absorption roller (305) rotate to be connected, the back of conveyer case (1) is provided with the negative pressure machine, and the output of negative pressure machine is connected with U type pipe, non-woven fabrics body (6) are located between two sets of dust absorption rollers (305) from top to bottom.

5. The nonwoven fabric conveying mechanism for a nonwoven fabric processing apparatus according to claim 1, wherein: the utility model discloses a non-woven fabrics body, including pressure sensor (402), outer loop (408) and inner loop (412) of rectifying, pressure sensor (402) are seted up on the surface outside of rectifying roller (401), and pressure sensor (402) are in the inside of recess and follow roller (401) radial movement of rectifying, and the inside pressure spring that is provided with of recess, and pressure spring's both ends and recess inner wall and pressure sensor (402) fixed connection, outer loop (408) and the inner loop (412) of rectifying are provided with three respectively, and three outer loop (408) and the crisscross setting of rectifying, flexible rectifying loop (415) are located the downside of non-woven fabrics body (6), the both ends of axial electric pole (414) are connected through universal joint (413) and the inner wall rotation of rectifying inner loop (412) and separating groove (403).

6. The nonwoven fabric conveying mechanism for a nonwoven fabric processing apparatus according to claim 1, wherein: the top of spring (505) and integral key shaft (503) fixed connection, the bottom of spring (505) and integral key section of thick bamboo (504) fixed connection, flexible spring integral key shaft is constituteed to integral key shaft (503), integral key section of thick bamboo (504) and spring (505) three.